Fruit juice machine



Dec. 26, 1944. c. z. MONROE 2,365,832

FRUIT JUICE MACHINE Filed Jan. .5, 1941 16 Shee ts-Sheet l PICIi V INVENTOR Charles Z. Monroe by I A TTORNE Y 13% 26, 1944. c. z. MONROE 5 2,365, 32

FRUIT JUICE mcnmz Filed Jan. 15, 1941 16 Sheets-Sheet 4 INVENTOR Charle 7., Monroe A TTORNEY Dec. 26, 1944. c, z, M NmE 2365,832

FRUIf JuIcfim cHINE Filed Jan. '15, 1941 l6 Sheets-Sheet 6 MQ BY ATTORNEY Charles Z. Monro I N VEN TOR c. z. MONROE FRUIT'JUICE MACHINE Filed Jan. 15, 1941 16 Sheets-Shet m N I Chafle'sZ. Monroe By 1 ATTORNEY PICIYL c. z MONROE 2,365,832

FRUIT JUICE MACHINE Filed Jan. 15,1941 16 Sheets-Sheet 8 Dec; 26, 1944.

III

AT ORNEY Dec. 26, 1944.

c. z. MONROE FRUIT JUICE momma 16 Sheets-Sheet 9 Filed Jan. 15. 1941 iwu llll.

INVENTOR Charles ZMcmrOe 'By a M- Ammvzx 0 MW i [if V M C. Z. MONROE FRUIT JUICE MACHINE Filed Jan. 15, 1941 16 Sheets-Sheet 11 INVENTOR Charlesl. Monroe,

B-Y %6W ATTORNEY Decf26, 1944. c. z. MONROE I 6 FRUIT JUICE MACHINE Filed Jan. 15, 1941 16 Sheets-Sheet l2 I/Jisigl IN V EN TOR PICIL? CharlesZMdnrqe ATTORNEY Dec. "26, 1944.

C. Z. MONROE FRUIT JUICE MACHINE Filed Jan. 15, 1941 16 Sheets-Sheet 13 +14 mvzzzvroa (ba es Z.Monroe BY v ATIDRNEY Dec. 26, 1944; qz, MONROE v 2,365,832

' FRUIT JUICE momma:

Filed Jan. 15, 1941 16 Sheets-Sheet 14 4 A M M s mllmlii mlllllllllllllliu .1

l N V EN TOR Charlesl- Mo'nfoe A TTORNE Y By ygaam 4- 4 Dec. 26, 1944. c, z, MONROE 2,365,832

FRUIT JUICE MAcgINE Filed Jan. 15, 1941 16 Sheets-Sheet 15 I N VEN TOR Charles Z. Monroe A TTORNEY FRUIT CUT CUP INSIDE 0A1: REFUSE CHUTEUNDER SPOUT Pfl These cams make one half 5mm OF CYCLE 1s Sheets-Sheet 16 OT 8 F i l ufen s seo cg: M'ovEoTo REFUSE cmma HELD ML .1

LIFT SPEED CONVEYOR BACK TO ARM HEN SPEED Low GED " cup PUSHER UNDER s amlFT I LDW SPEED C. Z. MON ROE FRUIT JUICE MACHINE smN DISCHAR ARM E Fiied Jan. 15, 1941 Deqrees 0F rew'nlut-k ns STRAINER ROD m sur ONE COMPLE E. C CLE PEN GATE O' ENINGv .r/////'//////1,. BRAKE SPR1 NG reusloumg /Z III l EMPTV 'HAND m RECEMNG vosmou E GATEHELDO osme IGH SPEED i h cuP RELEASED Dec. 26, 1944.

TRIDI 1687 KNIFE RH. ARM

ARM LOCK A STRAlNER I {99 cu CONVEYO, cup osspause rz b V 7 n 15 Patented Dec. 26, 1944 FRUIT JUICE MACHINE Charles Zienus Monroe, Detroit, Mich., assignor to Sealdsweet Sales Association, Tampa, Fla., a corporation of Florida Application January 15, 1941, Serial No. 374,459

22 Claims.

This application is a continuation in part of .my copending application Serial No, 277,696, filed June 6, 1939, for Fruit juice machine.

' The invention relates to a fruit juice extracting and dispensing machine, and more particularly to a machine of this class which is automatic in its operation and adapted to extract the juice and deliver the freshlyextractedjuice in a cup at the outside of the cabinet in which the machine is housed, a few moments traction.

Such'machines have been heretofore proposed, but, so far as applicant is aware, none have been made available to the public. The availablity of such machines in public places, such as railroad stat ons, office buildings, amusement parks, resorts, and other places where people congregate would be a decided contribution to the convenience and comfort of the public. All the-customer would have to do, to be served with a drink of freshly extracted juice, would be to drop a coin in a slot in the machine, thus setting the machine in operation and processing the fruit right before his eyes, which itself would add to the enjoyment of the drink, and delivering a cup of freshly extracted refreshing drink promptly at the outside of the machine.

It is an object of the invention to provide a after its exmachine of this class which is reliable in'operation, compact so that it can be housed in a closed cabinet of reasonable size and, therefore, readily transportable from place to place and locatable in desired places without taking up too much room.

, It is further-among the objects of the invention to greatly simplify the construction of such machines, to arrange the parts in such fashion as to permit their ready assembly-and disassembly, to adapt the machine to production in quantities; all these objects contributing to a further object of producing the machines at low cost.

Simplicity in construction is achieved in part by having a single reamer used in extracting the juice, this reamer being associated with two fruit gripping hands which are alternately brought into operative relation with the reamer for the extraction of the juice of a fruit. I

Ease of assembly and disassembly is achieved in part by providing a central vertical main frame supporting mostof the operating mechanisms of the machine, and by so associating the various. parts with this frame that they can be readily assembled or disassembled therewith. This object is further achieved by assembling this main frame and associated parts as a unit subremoved from the, machine cabinet.

A further object of the invention is the provision of a reliable feed for feeding the fruit to the extracting mechanism. This is achieved in part by the provision of a novel agitator in the throat of the supply hopper which prevents jamming of the fruit around said throat or discharge opening.

A still further object is the provision of a novel driving connection between the high speed r0- tating reamer and a rotating juice collector, whereby the rotation of the latter is controlled to vary its speed at different times in the machine cycle.

A further object is the provision of a machine of this class which can be readily serviced, which can be kept clean, and which is at all times well ventilated by forced circulation of air,

A- still further object is the provision of a charging hopper to be filledwith fruit in which the fruit can at all times be maintained at the desired temperature. {This object is attained by completely insulating the walls of the hopper and associated delivery passage and discharge gate, and maintaining desired temperature in this insulated chamber by a refrigerating unit controlled by a thermostatic switch.

These and other objects and advantages'as will become clear as the description proceeds, are attained by the machine and mechanisms described in detail in the following specification forming a part hereof.

' In the drawings:

Figs. 1 and 2 are front and rear views, respectively, of the machine;

Fig. 3 is an enlarged front view of the machine with the door open showing the general arrangement of the parts of the machine inside the cabinet;

Fig. 4 is an enlarged rear view of the machine, with parts broken away, showing the operating mechanism;

Fig. 5 is an enlarged central vertical sectional view of the portion of the machine below the Fig. 15 is a detail horizontal section view' taken along the line ll5 of Fig. 5, looking in the direction indicated by the arrows, and showing the driving mechanism for the hands;

Fig. 16 is a fragmentary horizontal sectional view taken substantially on the line Iii-16 of Fig. 15, but with the parts in the position indi cated in Fig. 12;

Fig. 17 is a fragmentary vertical sectional view on an enlarged scale through the hand-locking mechanism;

Fig. 18 is. an enlarged detail sectional view similar to the section of Fig. 5, showing the parts of ,the juice extracting and collecting mechanism and the operating means therefor, the parts being shown in the position of Fig.

Fig. 19 is a similar sectional view to Fig, 18 showing further parts of the operating means in section, the parts being shown in the position for high-speed operation of the juice collector;

Fig. 20 is a fragmentary horizontal sectional view through the gear casing taken substantially on the l ne 20-20 of Figs. 5 and 21;

Fig. 21 is a fragmentary sectional view taken substantially on the line 2l-2l of Fig. 20;

Fig. 22 is a sectional plan view through the machin taken substantially on the line 2222 of Fig. 5. the parts being in the position of Fig. 12;

Fig. 23 is'a fragmentary vertical part-sectional view. as seen from the rear, of the cup dispensers and their operating mechanism;

Fig. 24 is an enlarged fragmentary detail sectional view on the line 24-24 of'Fig. 22 showing parts of the our; delivery mechanism;

Fig. 25 is a fragmentary detail sectional plan view through the backbnneof the machine showing parts of the our: delivery mechanism and the actuatin means therefor;

Fig. 26 is a fragmentary detail sectional plan view showing parts of the juice collector, and strainer mechanism;

Fi 2'7 is an enlar ed detail sectional plan view taken through the strainer housing;

Fig. 28 is a detail horizontal sectional view taken substantially on the line 28-28 of Fig. 5 showing parts of the knife-actuating mechanism;

Fig. 29 is an enlar ed f agmentary secti nal plan view taken substantially on the line 29-29 of F 30 s owing the cup-pushout and refuse chute and the operating means therefor;

Fig. an is a similarlv enlarged vertical sectional v ew taken substantially on the line 30-30 of Fig. 29;

F g. 31 is a similarly-enlarged fra mentary vertical se tio al view taken substantially on the line 3l-3l of Fig. 29;

F g. 32 is a detail rear elevational view of the pushout gate and the used cup disposal means at the front of the machine;

Fig. 33 is a detail sectional view taken substantially on the line 33-33 of Fig. 32;

Fig. 34 is a vertical sectional view through the top of the machine including the hopper, the section being taken through the feed chute leading from the hopper and the discharge gate:

Fig. 35-is a detail plan view of the fruit discharge gate and its operating mechanism;

Fig. 36 is a detail sectional plan view of the agitator and associated parts;

Fig. 37 is a timing chart showing the timed relation of the various operating mechanisms 0 a full cycle of the machine:

Fig. 38 shows a diagram of a wiring system which may be employed.

The machine is preferably housed in a sheet metal generally rectangular cabinet l0 suitably stiffened by framing and enclosed by sheathing. For convenience of access to the parts of the machine, the front portion of the cabinet has an opening therein of substantially the height and .width of the cabinet, this opening being nortransverse partition l3 forming the bottom of a secured as by bolts I 9.

hopper for the fruit and an inclined fruit delivery chute terminating in a discharge gate forming the lowest portion of this partition, and

a lower transverse partition l4.

Between the lowest portion of the top partition and the partition i4, and extending the greater portion of the width of the door H is arranged a rectangular window I5, suitably glazed to permit users of the machine to look into the cabinet and see the working of the principal parts of the machine. The partition i4 forms the bottom of the space visible through the window, and is preferably formed for the most part by a reticulated plate or plates (see Fig. 22). I

The main unit of the machine carrying most of the operating parts of the machine and insertable and removable as a unit in the cabinet on angles, as l8, to which they are removably The top of the frame I member i6 is secured in place by bolts. as 20, securing it to a top cross member 2i (Figs. 4 and 6). It will be seen that. byremoving the bolts I9 and 20, the entire framework and its associated parts may be slid as a unit through the rear opening in the cabinet.

As clearly appears from Figs. 4 and 5, the main frame member 16, which for most of its length is of plate-like form reinforced by ribbing, extending transversely of the machine, is widened out fore and aft at the bottom to bridge the space between supporting bars I1, and to which it is securely bolted. A gear casing 22 is bolted to the bottom of the frame l6 from which a driving motor 23 is swung. From the rear portion of this gear casing rises the mainoperating cam shaft 24, controlling and timing the various mechanisms-and from the front of the casing rises the shaft 25 for driving thereamer and associated parts.

The drive from the motor to theshafts 24 and 25 is clearly-shown in Figs. 5, 19, 20 and 21. The motor is suspended in a swinging bracket 26 pivoted at 21 to the bottom of the gear casing, and drives the main shaft 28 extending across the front of the gear easing and-supported by suitable radial and thrustbearings adjacent its ends.

This drive is through V-groove pulleys 29 and 30 secured. respectively, to the motor armature shaft and the end of the shaft 28, and a V- section belt 30a engaging the grooves of the pulleys. The pivoted support of the motor pulley.

The vertical camshaft 24 is driven from the 2,865,832 bracket 26 is so located that the weight of shaft 28 through an intermediate shaft 3| extending from front to rear of the casing and supported by suitable bearings adjacent its ends.

Suitable speed reduction to cam shaft 24 is obtained through a worm 32 on shaft 28 engaging a worm gear 33 on shaft 3|, and a second worm 34 on shaft 3| engaging a worm gear 35 on the lower end of the cam shaft 24. Suitable antifrict ion combined radial and thrust bearings (see Fig. support the shaft 24, on opposite sides of the gear 35, in the gear casing 22.

The reamer shaft is driven through a clutch mechanism designated generally by. 36 either from a high-speed hollow shaft 31 or from a concentric low-speed shaft 38, these shafts being mounted with-respect to each other and to the gear casing in antifriction bearings, see Fig. 19.

The high-speed shaft 31 is directly driven from the main shaft 28 through spiral gears 39 and 48 secured to the respective shafts. The lowspeed shaft 38 is indirectly driven by reduction gearing from the shaft 28. The spiral gear 39 on shaft 31 meshes with a spiral gear 42 on a short counter-shaft 43. The counter-shaft 43 drives through a pinion thereon to a large gear 45 on the low-speed sleeve shaft 38.

The reamer shaft 25 at its lower end is carried by spaced hearings in the hollow high-speed shaft 3'! and has a longitudinal sliding but non-rotary connection (see Fig. 19) to a bearing sleeve 45 carrying a clutch plate 46. This clutch plate may carry suitable antifriction facings 41 on its opposite sides.

The high speed shaft 31 has at its u per end a clutch disc 48, which, when the shaft is lowered by means later to be described, will cause the disc 48 to engage the clutch plate 46 and thus drive the reamer shaft at high speed from the highspeed shaft 31.

The clutch plate 46 is of larger diameter than the disc 48, its outer portion being received between upper and lower spaced clutch faces 49, 58

carried by a disc 5!. on the upper end of the lowspeed shaft 38. When the reamer shaft 25 is raised, the clutch plate 46 thereon is raised by a spring 46a and leaves the high-speed disc 48 and engages the face 49 of the low-speed disc 5| to drive the reamer shaft at the lower speed, the clutch faces being forced together more firmly by the compression of spring 46a in the raising of shaft 25.

The clutch mechanism has a further function in acting as a brake to stop the machine. A stiff brake spring 52 of few turns is inserted between a shoulder on the fixed top bearing of the shaft 38 and the disc 5|, this spring normally holding the shaft and the clutch. faces attached thereto' It will be noted that the in a raised .position. pinion 44 has greater width than the gear with which it meshes to allow for slight longitudinal movement of the shaft 38.

Further, a stiff spring 53 is inserted between the lower fixed bearing of shaft 31 and a shoulder on the shaft, in this instance formed by the ear. 39..

If. now, the reamer shaft 25 is forced downwardly with sufficient force, it will first compress 6| to central position under th spring 53, thus slightly lowering the highspeed shaft through the engagement of clutch plate 46 with clutch disc 48. "A slight lowering of the shaft is sufficient to cause the outer portion of the clutch plate 46 to engage the lower clutch face on the disc 5|, and upon further movement compressing the brake spring 52. By reason of the very much larger area of engagement between plate 46 and'face 50 than the area of engagement between plate 46 and disc 48, the speed of the reamer shaft will be rapidly reduced to the low speed. and through the gearing, the clutch mechanism will act as a brake to quickly stop the overrun of the motor and the entire machine.

The purpose of the high and low speeds of the reamer shaft and the necessity for quick stopping of the machine upon completing a cycle will be better understood from the description of the operation of the machine as a whole which will be hereinafter given.

' In Figs. 7 to 14 are shown the main moving parts of the machine visible to an observer looking through the window l5. In these views the parts are shown at successive stages in a cycle of the machine. The hands for receiving a fruit are designated by numerals 54 and 55, the knife for cutting the fruit in two by 56, the reamer housing by 51, the rightand left-hand cup dispensers by 58 and 59, the rightand left-hand cup deliverers by 60 and 6!, the cups generally by numeral 62, the ejector stems associated with the right and left hands by 63 and 64, and their cooperating right and left ejector abutments by 65 and 66. It will be noted that the parts are generally symmetrically arranged on 'opposite sides of the vertical central fore and aft plane of the machine.

Fig. 7 shows the parts at the start of the machine cycle after a fruit, as F, has been deposited in the right hand 54. The knife 56 is in substantially its lower cocked position. In Fig. 8, the hands have moved toward each other where both grip the fruit, and the knife has passed between them to sever the fruit in two. In this position, they are .locked by means to be described later on. In Fig. 9 the hands are rotating in the same direction. the right hand moving toward a position vertically above the reamer housing 51. In Fig. 10 the right hand is locked in position for reaming, and the part of the fruit gripped thereby is being operated on by the reamer to extract the juice. In Fig. 11, the hands are both rotating in the same direction opposite to that shown in Fig. 9. In Fig. 12, the left hand is locked in the reaming position and the right hand has moved to the ejecting position, with it ejector stem 63 in engagement with the abutment 65 and the skin being ejected.

In Fig. 13, the right hand has returned to the starting position, and the left hand is moving toward the ejecting position. In Fig. 14, the left hand has moved to the ejecting position, from which it will be immediately returned to the starting position. The parts are then back to the position of Fig. 7 ready for a succeeding cycle.

In the starting position, it will be noted a cup 62 has been dropped from left-hand dispenser 58 in front of left cup deliverer 6|. In Figs. 8, 9 and 18, this cup is being moved by the deliverer the discharge spout 61 of the reamer housing, which position it reaches in Fig. 11. In Fig. 13 a cup is being simultaneously dropped by both dispensers 58 and 59 in front of the respective deliverers 68 and 6|; and in.Figs. 11, 12 and 13 the left cup deliverer is shown slowly returned to itsstartlng position,-while the right-hand deliverer is held stationary to deliver the cup now in front of it in the succeeding cycle.

The hands and their operating mechanism The detail of the hands and their controlling and operating mechanism is shown most clearly in Figs. 5, 15 and 18. Each hand consists of a generally semi-cylindrical cup 88 adapted to receive a fruit. Within this cup are secured a series of gripping spring fingers 89, which are preferably provided with sharp points In which bite into the skin of the fruit to hold the fruit securely in place. To insure the'fruit part held by the cup from turning under the reamer action, the biting points may be and preferably are inclined opposite to the direction of rotation of the reamer.

The bottom of the cup has a short cylindrical extension II to house an ejector head 12 in its retracted position. The secured ends of the spring fingers 69 lie in slots formed in the inner face of this cylindrical extension and are secured by the screws 13.

To facilitate removal of the cups 88 and their replacement by cups of a different size or form, each cup is provided with a reduced cylindrical extension I4 fitting into the bore of a socket head I and locked in place by a, set screw I6.

. The stem, as 63, of the ejector head I2 is guided by a bearing sleeve I8 secured, as by a press fit, in this reduced extension I4 and extends freely. The" ejector head has its inner face conform to the curvature of the cup, and bears during the reaming of the fruit upon the skin thereof. To

utilize the friction of such engagement to assist the gripping springs in preventing the rotation of the fruit under the action of the reamer, the head is non-rotatably fixed in the hand as by the engagement of its squared stem with a corresponding squarred opening in bearing sleeve I8. At its outer end, the stem has a head 19, and the ejector is normally held with its head I2 in inoperative position in the cylindrical extension of the cup by a spring 80 surrounding the stem and bearing at its opposite ends against head I9 and the end of the bearing sleeve I8. The head 12 may be a cap nut screwed on the end of the stem, which can be readily removed or replaced, thus facilitating assembly or disassembly of the parts of the ejector.

The socket head I5 is secured to an arm 8| extending at an angle to the bore in the head, this arm being secured at its opposite end to a shaft 82 mounted to rotate in an elongated bearing 83 formed-by bosses projecting fore and aft of the main frame casting I6, Fig. .18. The reduced outer end of the shaft 82 forming a shoulder 84 is rigidly secured to the arm 8|, and a conical extension 85 of the arm surrounds the shaft 82 and has its annular base disposed substantially in contact with an annular raised track 88 on-the front face of the casting IS. 'The annular base of this conical portion 85 is formed with two spaced enlargements 81, the purpose of which will be later described.

The inner end of the shaft 82 also has a reduced extension forming a shoulder 88 against which is clamped a gear 89, splined to the shaft, by a nut 90. The distance between shoulders 84 and 88 on the shaft is slightly longer than the bearing 83 so as not to interfere with the free rotation of the shaft in thebearings.

As shown in Fig, 15, the rotation of the shaft 82 at the right of the figure which corresponds to the right hand of Figs. 7 to 14 is effected by a segmental rack 9| on an arm pivoted at 92 to the rear face of the casting I8. A cam follower roller 93 intermediate the ends of the arm of rack 9| projects into a cam groove on the barrel cam 84 splined to the shaft-24. The left hand 55 is driven similarly to the right hand 54, its segmental rack 95 being, however, carried by a bent lever pivoted intermediate its ends on the pivot 96 and having its other end provided with a cam follower roller 91 similar to roller 83 and engaging with a cam groove on the barrel cam 88 splined to the shaft 24 below the cam 84.

To relieve the strain on the driving mechanism for the hands at times when it would be placed under the severest strains, namely when the fruit is being cut and when the hands are in operative relation to the reamer, each of the hands is provided with a locking means already referred to. Such locking means is best shown inFigs. 15, 16 and 17. Each of the two spaced enlargements 81 on the base of the conical extension 85 of each hand is formed with a pocket 99 in which is slidably mounted a locking plunger I00 continuously biased to its locking position by a coil spring IIII. These locking plungers, during most of the rotary movements of the hands, have their outer ends ride upon the annular tracks 86 with the main bodies thereof withdrawn within their respective recesses and the springs IOI under tension. A pair of holes I02 is arranged adja-. cent the opposite margins of the main frame casting I8, each of them being arranged to cooperate with the pair of locking plungers associated with the adjacent hand 54 or 55.

When the hands are rotated from the position of Fig. 7 to the cutting position of Fig. 8, the lower locking plungers I00 (Fig.7) are moved opposite -the holes I02 and at once snap into the same to ing plungers associated with each hand is in position to snap in to the locking hole I02 associated with said hand, as indicated inconnection with the left hand in Figs. 16 and 1'7, which is shown in these figures locked in the reaming position.

The release of the locking plungers I02 is effected in timed relation to the rotation of the hands through a cam I03 splined to the main cam shaft 24 and disposed between the hand-operating barrel cams 94 and 98, see Fig. 5. A horizontal rock shaft I04 extends across the back of the main frame I6 and is pivoted in cars I05 pro-.

jecting from the frame. Centrally of this shaft between two cars I05, the shaft has secured to it a rearwardly and upwardly extending arm I06,

-the end of which is rounded and engages the peripheral cam face on cam I03. From the ends of the shaft, in vertical alignment with the looking holes I02, are arranged a pair of upwardly extending arms I01, I08 rigidly secured to the shaft I04. Each of these arms has a projection I08 thereon in horizontal alignment with the associated hole I 02. This projection may be an adjustable screw locked in adjusted position by a nut. In addition, a stop screw I I0 may be provided at the'end of each arm adapted to engage 

